CN218869565U - Homonymy NIR infrared double-layer bottom pasting production line - Google Patents

Homonymy NIR infrared double-layer bottom pasting production line Download PDF

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Publication number
CN218869565U
CN218869565U CN202222982977.0U CN202222982977U CN218869565U CN 218869565 U CN218869565 U CN 218869565U CN 202222982977 U CN202222982977 U CN 202222982977U CN 218869565 U CN218869565 U CN 218869565U
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conveying
frame
conveying device
infrared heating
double
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蔡贤能
蔡白娥
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Dongguan Chuanli Shoe Machinery Co ltd
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Dongguan Chuanli Shoe Machinery Co ltd
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P70/00Climate change mitigation technologies in the production process for final industrial or consumer products
    • Y02P70/50Manufacturing or production processes characterised by the final manufactured product

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Abstract

The utility model discloses a homonymy NIR infrared double-layer bottom attaching production line, which comprises a conveying frame, a first conveying device, a second conveying device, a lifting device, a first wheat wheel conveying assembly, a second wheat wheel conveying assembly and a double-layer infrared heating and drying device; a first wheat wheel conveying assembly and a second wheat wheel conveying assembly are arranged on the conveying frame, and are arranged beside the conveying frame in a matched manner with a double-layer infrared heating and drying device, and the input end and the output end of the double-layer infrared heating and drying device are respectively connected with the output end of the first wheat wheel conveying assembly and the input end of the second wheat wheel conveying assembly; make the feed inlet and the discharge gate that shine the machine be located the same one side that shines the machine, consequently only need in one side arrange the manual work can, first wheat wheel conveyor components and second wheat wheel conveyor components's setting in addition can make the butt joint supporting use through two first conveyor between the two independent shining machines to can reach seamless butt joint, reduce its limitation of using.

Description

NIR infrared double-layer bottom attaching production line on same side
Technical Field
The utility model relates to a shoes material processing equipment field technique especially indicates a homonymy NIR infrared ray double-deck production line of pasting end.
Background
Shoes have a long history of development. Approximately 5000 years ago in the yangshao culture period, the most primitive shoe made of hide appeared. Shoes are a tool for protecting feet of people from being injured. At first, in order to overcome special conditions and prevent feet from being difficult or injured, fur shoes are invented. The shoes are developed to the present, the present appearance is formed, shoes with various types and functions are visible everywhere, the shoes are usually required to be bonded through a bonding process in the manufacturing process, and the surface of the soles is required to be irradiated before gluing and bonding the soles so as to ensure the bonding quality.
In the existing shoe irradiation equipment, a conveying belt generally penetrates through two ends of an irradiation machine, so that the two ends of the irradiation machine need to be manually operated, the labor cost is high, meanwhile, in order to ensure enough irradiation time, the length of the conveying belt and the length of the irradiation machine need to be increased, the overall size of the irradiation machine is larger, more space can be occupied, meanwhile, the conveying belts between the two irradiation machines are difficult to realize butt joint, the matched use cannot be realized, and the use limitation is larger; therefore, there is a need for further improvements to existing same-side NIR dual-layered bottoming line structures.
SUMMERY OF THE UTILITY MODEL
In view of this, the utility model discloses to the disappearance that prior art exists, its main objective provides a homonymy NIR infrared ray double-deck end production line that pastes, and it can effectively solve current shoes material and shine the problem that equipment cost of labor is big, whole is bulky, space cost is high and use the limitation is big.
In order to achieve the above purpose, the utility model adopts the following technical scheme:
an NIR infrared double-layer bottom attaching production line on the same side comprises a conveying frame, a first conveying device, a second conveying device, a lifting device, a first wheat wheel conveying assembly, a second wheat wheel conveying assembly and a double-layer infrared heating and drying device; the first conveying device and the second conveying device are both arranged on the conveying frame, wherein the second conveying device is positioned below the first conveying device and is opposite to the conveying direction of the first conveying device, and the number of the first conveying devices is two; the two lifting devices are respectively arranged at two ends of the conveying frame and are respectively connected with the input ends and the output ends of the first conveying device and the second conveying device; the first wheat wheel conveying assembly is arranged on the conveying frame and is communicated with the output end of the front first conveying device; the second wheat wheel conveying assembly is arranged on the conveying frame and is communicated with the input end of the rear first conveying device; the double-layer infrared heating and drying device is arranged beside the conveying frame, and the input end and the output end of the double-layer infrared heating and drying device are respectively connected with the output end of the first wheat wheel conveying assembly and the input end of the second wheat wheel conveying assembly.
As a preferable scheme, the first conveying device comprises a plurality of first conveying rollers and a first driving mechanism, wherein the first conveying rollers are arranged side by side and respectively arranged on the conveying frame in a reciprocating rotation manner; the first driving mechanism is arranged on the conveying frame and drives the first conveying roller to rotate back and forth.
As a preferable scheme, the second conveying device comprises a transmission shaft, a second driving mechanism and a conveying belt, the transmission shaft is arranged on the conveying frame in a reciprocating rotation manner and is positioned below the first conveying device, and the number of the transmission shafts is two, and the two transmission shafts are respectively arranged at the front end and the rear end of the conveying frame; the second driving mechanism is arranged on the transmission shaft and drives the transmission shaft to rotate back and forth; the conveying belt is sleeved on the two conveying frames and driven by the transmission shaft to rotate back and forth.
As a preferred scheme, the lifting device comprises a lifting frame, a movable frame and a third driving mechanism, wherein the lifting frame is arranged beside the conveying frame; the movable frame is movably arranged on the lifting frame up and down back and forth, and the third driving mechanism is arranged on the lifting frame and drives the movable frame to move up and down back and forth.
Preferably, the first wheat wheel conveying assembly comprises a first transmission rod, a fourth driving mechanism and a first wheat wheel unit; the first transmission rods are arranged on the conveying frame in a back-and-forth rotating mode and positioned beside the output end side of the first conveying device on the front side, and the first transmission rods are arranged transversely at intervals; the fourth driving mechanism is arranged on the conveying frame and drives the first transmission rod to rotate back and forth; the first wheat wheel unit is arranged on the first transmission rod and rotates back and forth along with the first transmission rod.
As a preferable scheme, the second wheat wheel conveying assembly comprises a second transmission rod and a second wheat wheel unit; the second transmission rods are arranged on the conveying frame in a reciprocating rotation mode and positioned beside the input end side of the first conveying device on the rear side, the second transmission rods are longitudinally arranged at intervals, and the second transmission rods are driven by the fourth driving mechanism to rotate back and forth; the second wheel unit is arranged on the second transmission rod and rotates back and forth along with the second transmission rod.
As a preferred scheme, a material baffle plate is further arranged on the conveying frame and is positioned between the first wheat wheel conveying device and the second wheat wheel conveying device.
As a preferable scheme, the double-layer infrared heating and drying device comprises an infrared heating and drying rack, a third conveying device, a fourth conveying device, a material stirring device and an infrared heating and drying unit; the infrared heating drying rack is internally provided with an infrared heating drying cavity, the third conveying device and the fourth conveying device are arranged on the infrared heating drying rack side by side and are positioned in the infrared heating drying cavity, the third conveying device comprises a second conveying roller and a fifth driving mechanism, the second conveying roller can be arranged on the infrared heating drying rack in a reciprocating rotation mode, and the second conveying rollers are arranged at intervals; the fifth driving mechanism is arranged on the infrared heating drying rack and drives the second conveying roller to rotate back and forth; the fourth conveying device comprises a third conveying roller and a sixth driving mechanism, the third conveying roller can be arranged on the infrared heating drying rack in a reciprocating rotation mode, and the third conveying rollers are arranged at intervals; the sixth driving mechanism is arranged on the infrared heating drying rack and drives the third conveying roller to rotate back and forth; the material stirring device is arranged on the infrared heating drying frame and is positioned in the infrared heating drying cavity, and two ends of the material stirring device are respectively connected with the output end of the third conveying device and the input end of the fourth conveying device; the infrared heating and drying unit is arranged in the infrared heating and drying cavity and is positioned right above the third conveying device and the fourth conveying device, and the infrared heating and drying unit is arranged in an upper layer and a lower layer.
As a preferred scheme, the material shifting device comprises a material shifting frame, a conveyor belt, a seventh driving mechanism and a material shifting rod, wherein the material shifting frame is arranged on the infrared heating drying frame and is positioned beside the output end of the third conveying device and the input end side of the fourth conveying device; the conveying belt can be arranged on the material shifting frame in a back-and-forth rotating manner; the seventh driving mechanism is arranged on the material shifting frame and drives the conveying belt to rotate back and forth; the material stirring rod is arranged on the conveying belt and moves back and forth between the output end of the third conveying device and the input end of the fourth conveying device along with the conveying belt.
Compared with the prior art, the utility model obvious advantage and beneficial effect have, particularly, can know by above-mentioned technical scheme:
a first wheat wheel conveying assembly and a second wheat wheel conveying assembly are arranged on the conveying frame, and are matched with a double-layer infrared heating and drying device to be arranged beside the conveying frame, and the input end and the output end of the double-layer infrared heating and drying device are respectively connected with the output end of the first wheat wheel conveying assembly and the input end of the second wheat wheel conveying assembly; the feeding port and the discharging port of the irradiation machine are positioned at the same side of the irradiation machine, so that only one side is required to be manually arranged, the labor cost is reduced, meanwhile, the input end and the output end of the double-layer infrared heating and drying device are arranged at the same end, a product can be transmitted back and forth in the double-layer infrared heating and drying device, the irradiation time of the product in the double-layer infrared heating and drying device can be effectively increased, the size of the irradiation machine can be effectively reduced when enough irradiation time is ensured, and the occupied space and the occupied area are smaller; in addition, the arrangement of the first wheat wheel conveying assembly and the second wheat wheel conveying assembly can enable the two independent irradiation machines to be matched for use through the butt joint of the two first conveying devices, so that the modularized quick assembly and disassembly can be completed, seamless butt joint can be achieved, and the use limitation is reduced.
To illustrate the structural features and functions of the present invention more clearly, the present invention will be described in detail with reference to the accompanying drawings and specific embodiments.
Drawings
FIG. 1 is a schematic perspective view of a preferred embodiment of the present invention;
FIG. 2 is a partially assembled schematic view of a preferred embodiment of the present invention;
fig. 3 is a schematic perspective view of the lifting device according to the preferred embodiment of the present invention;
FIG. 4 is a schematic perspective view of a dual-layered infrared heating and drying device according to a preferred embodiment of the present invention;
fig. 5 is a partially assembled schematic view of the dual-layer infrared heating and drying device according to the preferred embodiment of the present invention.
Description of the figures:
10. conveying frame 11 and material baffle plate
12. Material blocking rod 13 and material blocking head
20. First conveying device 21 and first conveying roller
30. Second conveying device 31 and transmission shaft
32. Second driving mechanism 33 and conveyor belt
40. Lifting device 41 and lifting frame
42. Movable frame 43 and third driving mechanism
50. First wheat wheel conveying assembly 51 and first transmission rod
52. Fourth drive mechanism 53, first wheat wheel unit
60. Second wheat wheel conveying device 61 and second transmission rod
62. Second wheat wheel unit 70, double-layer infrared heating and drying device
701. Infrared heating drying cavity 71 and infrared heating drying frame
72. Third conveying device 721, second conveying roller
722. Fifth drive mechanism 73 and fourth conveyance device
731. Third transport roller 732 and sixth drive mechanism
74. Kick-out device 741 and kick-out frame
742. Conveyer 743, seventh drive mechanism
744. A material stirring rod 75 and an infrared heating and drying unit.
Detailed Description
Referring to fig. 1 to 5, the detailed structure of the preferred embodiment of the present invention is shown, which includes a conveying rack 10, a first conveying device 20, a second conveying device 30, a lifting device 40, a first wheat wheel conveying assembly 50, a second wheat wheel conveying assembly 60, and a double-layer infrared heating and drying device 70.
The first conveying device 20 and the second conveying device 30 are both arranged on the conveying rack 10, wherein the second conveying device 30 is positioned below the first conveying device 20 and is opposite to the conveying direction of the first conveying device 20, and the first conveying devices 20 are arranged in the front and back direction along the conveying direction of the first conveying device 20; in this embodiment, the first conveying device 20 includes a plurality of first conveying rollers 21 and a first driving mechanism (not shown), and the first conveying rollers 21 are arranged side by side and respectively arranged on the conveying rack 10 in a reciprocating manner; the first driving mechanism (not shown) is arranged on the conveying frame 10 and drives the first conveying roller 21 to rotate back and forth; the second conveying device 30 comprises a transmission shaft 31, a second driving mechanism 32 and a conveying belt 33, the transmission shaft 31 is arranged on the conveying frame 10 in a reciprocating rotation manner and is positioned below the first conveying device 20, wherein the number of the transmission shafts 31 is two, and the two transmission shafts are respectively arranged at the front end and the rear end of the conveying frame 10; the second driving mechanism 32 is arranged on the conveying frame 10 and drives the transmission shaft 31 to rotate back and forth; the conveying belt 33 is sleeved on the two transmission shafts 31 and driven by the transmission shafts 31 to rotate back and forth; the stand is also provided with a material blocking rod 12, an eighth driving mechanism (not shown) and a material blocking head 13, and the material blocking rod 12 is arranged on the conveying frame 10 in a reciprocating rotation manner and is positioned at the front side of the first wheat wheel conveying assembly 50; the eighth driving mechanism (not shown) is arranged on the conveying frame 10 and drives the material blocking rod 12 to rotate back and forth, and the material blocking head 13 is arranged on the material blocking rod 12 and moves up and down on the front side of the first wheat wheel conveying assembly 50 under the driving of the material blocking rod 12; the material blocking head 13 is used for preventing the products on the conveying frame from generating cross collision with the products which do not enter the double-layer infrared heating drying device 70.
The two lifting devices 40 are respectively arranged at two ends of the conveying frame 10 and are respectively connected with the input ends and the output ends of the first conveying device 20 and the second conveying device 30; in this embodiment, the lifting device 40 includes a lifting frame 41, a movable frame 42, and a third driving mechanism 43, the lifting frame 41 is disposed beside the conveying frame 10; the movable frame 42 is movably disposed on the lifting frame 41 up and down, the third driving mechanism 43 is disposed on the lifting frame 41 and drives the movable frame 42 to move up and down, and the lifting device 40 is used for driving the feeding tray to move back and forth between the first conveying device 20 and the second conveying device 30.
The first wheat wheel conveying assembly 50 is arranged on the conveying frame 10 and is communicated with the output end of the front first conveying device 20, and the first wheat wheel conveying assembly 50 is used for driving the products and the shoe supports to move along the conveying direction of the first wheat wheel conveying assembly 50; in this embodiment, the first wheel conveying assembly 50 includes a first transmission rod 51, a fourth driving mechanism 52 and a first wheel unit 53; the first transmission rods 51 are arranged on the conveying frame 10 in a back-and-forth rotating manner and are positioned beside the output end side of the front first conveying device 20, and the first transmission rods 51 are a plurality of rods arranged at intervals in the transverse direction; the fourth driving mechanism 52 is disposed on the conveying frame 10 and drives the first transmission rod 51 to rotate back and forth; the first wheal unit 53 is provided on the first transfer lever 51 and rotates back and forth with the first transfer lever 51.
The second wheat wheel conveying assembly 60 is arranged on the conveying frame 10 and is communicated with the input end of the rear first conveying device 20; in the present embodiment, the second wheel conveying assembly 60 includes a second transmission rod 61 and a second wheel unit 62; the second transmission rods 61 are arranged on the conveying frame 10 in a back-and-forth rotatable manner and located beside the input end side of the rear first conveying device 20, the second transmission rods 61 are arranged in a longitudinally spaced manner, and the second transmission rods 61 are driven by the fourth driving mechanism 52 to rotate back and forth; the second wheel unit 62 is provided on the second driving lever 61 and rotates back and forth with the second driving lever 61. Still be provided with a striker plate 11 on carriage 10, this striker plate 11 is located between first wheat wheel conveyor 50 and second wheat wheel conveyor 60, and striker plate 11 is used for preventing the product on first wheat wheel conveyor 50 and the product on second wheat wheel conveyor 60 from taking place to collide with, has guaranteed the processingquality of product.
This double-deck infrared heating drying device 70 sets up by the carriage 10 side, and the input and the output of double-deck infrared heating drying device 70 connect first wheat wheel conveyor component 50's output and second wheat wheel conveyor component 60's input respectively for double-deck infrared heating drying device 70's input and output are located same one side, consequently can realize homonymy material loading and get the material, need not all to arrange the manual work in double-deck infrared heating drying device 70's both sides, artificial cost has been reduced.
In this embodiment, the double-layer infrared heating and drying device 70 includes an infrared heating and drying rack 71, a third conveying device 72, a fourth conveying device 73, a material stirring device 74, and an infrared heating and drying unit 75; the infrared heating and drying frame 71 is internally provided with an infrared heating and drying chamber 701, the third conveying device 72 and the fourth conveying device 73 are arranged on the infrared heating and drying frame 71 side by side and are positioned in the infrared heating and drying chamber 701, the third conveying device 72 comprises a second conveying roller 721 and a fifth driving mechanism 722, the second conveying roller 721 can be arranged on the infrared heating and drying frame 71 in a reciprocating rotation manner, and the second conveying rollers 721 are a plurality of rollers arranged at intervals; the fifth driving mechanism 722 is disposed on the infrared heating and drying rack 71 and drives the second conveying roller 721 to rotate back and forth; the fourth conveying device 73 includes a third conveying roller 731 and a sixth driving mechanism 732, the third conveying roller 731 is disposed on the infrared heating and drying rack 71 in a back-and-forth rotatable manner, and the third conveying rollers 731 are a plurality of rollers arranged at intervals; the sixth driving mechanism 732 is disposed on the infrared heating and drying rack 71 and drives the third conveying roller 731 to rotate back and forth; the material stirring device 74 is arranged on the infrared heating and drying frame 71 and is positioned in the infrared heating and drying cavity 701, and two ends of the material stirring device 74 are respectively connected with the output end of the third conveying device 72 and the input end of the fourth conveying device 73; the infrared heating and drying unit 75 is disposed in the infrared heating and drying chamber 701 and located right above the third conveying device 72 and the fourth conveying device 73, and the infrared heating and drying unit 75 is disposed in an upper layer and a lower layer and is matched with a double-layer feeding tray, so that the upper layer and the lower layer of heating and drying processes can be completed simultaneously.
The material poking device 74 comprises a material poking frame 741, a conveying belt 742, a seventh driving mechanism 743 and a material poking rod 744, wherein the material poking frame 741 is arranged on the infrared heating and drying frame 71 and is positioned beside the output end of the third conveying device 72 and the input end side of the fourth conveying device 73; the conveyor belt 742 is arranged on the material shifting frame 741 in a reciprocating rotation manner; the seventh driving mechanism 743 is disposed on the material shifting frame 741 and drives the conveyor belt 742 to rotate back and forth; the material shifting rod 744 is arranged on the conveyor belt 742 and moves back and forth between the output end of the third conveying device 72 and the input end of the fourth conveying device 73 along with the conveyor belt 742, the material shifting device 74 is used for shifting the products and shoe supports in the third conveying device 72 to the fourth conveying device 73 and conveying the products and shoe supports out of the infrared heating drying cavity 701, and the material shifting device 74 is used for conveying the products in the third conveying device 72 to the fourth conveying device 73 through the material shifting rod 744.
When the device is used, all parts are required to be connected with an external controller, and then the controller controls all parts to work in a matched mode.
The utility model discloses a design focus lies in: a first wheat wheel conveying assembly and a second wheat wheel conveying assembly are arranged on the conveying frame, and are arranged beside the conveying frame in a matched manner with a double-layer infrared heating and drying device, and the input end and the output end of the double-layer infrared heating and drying device are respectively connected with the output end of the first wheat wheel conveying assembly and the input end of the second wheat wheel conveying assembly; the feeding port and the discharging port of the irradiation machine are positioned at the same side of the irradiation machine, so that only one side is required to be manually arranged, the labor cost is reduced, meanwhile, the input end and the output end of the double-layer infrared heating and drying device are arranged at the same end, a product can be transmitted back and forth in the double-layer infrared heating and drying device, the irradiation time of the product in the double-layer infrared heating and drying device can be effectively increased, the size of the irradiation machine can be effectively reduced when enough irradiation time is ensured, and the occupied space and the occupied area are smaller; in addition, the arrangement of the first wheat wheel conveying assembly and the second wheat wheel conveying assembly can enable the two independent NIR double-layer bottom attaching production lines on the same side to be used in a butt joint mode through the two first conveying devices, modular quick assembly disassembly is achieved, seamless butt joint can be achieved, and the use limitation is reduced.
The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any slight modifications, equivalent changes and modifications made by the technical spirit of the present invention to the above embodiments are all within the scope of the technical solution of the present invention.

Claims (9)

1. The utility model provides a homonymy NIR infrared ray double-deck end production line that pastes which characterized in that: comprises a conveying frame, a first conveying device, a second conveying device, a lifting device, a first wheat wheel conveying assembly, a second wheat wheel conveying assembly and a double-layer infrared heating and drying device; the first conveying device and the second conveying device are both arranged on the conveying frame, wherein the second conveying device is positioned below the first conveying device and is opposite to the conveying direction of the first conveying device, and the number of the first conveying devices is two, and the first conveying devices are arranged in the front and back direction along the conveying direction of the first conveying device; the two lifting devices are respectively arranged at two ends of the conveying frame and are respectively connected with the input ends and the output ends of the first conveying device and the second conveying device; the first wheat wheel conveying assembly is arranged on the conveying frame and is communicated with the output end of the front first conveying device; the second wheat wheel conveying assembly is arranged on the conveying frame and is communicated with the input end of the rear first conveying device; this double-deck infrared heating drying device sets up by the carriage side, and double-deck infrared heating drying device's input and output connect first wheat wheel conveyor assembly's output and second wheat wheel conveyor assembly's input respectively.
2. The same-side NIR infrared double-layer bottoming line as in claim 1, characterized in that: the first conveying device comprises a plurality of first conveying rollers and a first driving mechanism, wherein the first conveying rollers are arranged side by side and can be respectively arranged on the conveying frame in a reciprocating rotation manner; the first driving mechanism is arranged on the conveying frame and drives the first conveying roller to rotate back and forth.
3. The same-side NIR infrared double-layer bottoming line as in claim 1, characterized in that: the second conveying device comprises a transmission shaft, a second driving mechanism and a conveying belt, the transmission shaft is arranged on the conveying frame in a back-and-forth rotating mode and is located below the first conveying device, and the number of the transmission shafts is two, and the two transmission shafts are arranged at the front end and the rear end of the conveying frame respectively; the second driving mechanism is arranged on the transmission shaft and drives the transmission shaft to rotate back and forth; the conveying belt is sleeved on the two conveying frames and driven by the transmission shaft to rotate back and forth.
4. The same-side NIR infrared double-layer bottoming line as in claim 1, characterized in that: the lifting device comprises a lifting frame, a movable frame and a third driving mechanism, and the lifting frame is arranged beside the conveying frame; the movable frame is movably arranged on the lifting frame up and down back and forth, and the third driving mechanism is arranged on the lifting frame and drives the movable frame to move up and down back and forth.
5. The same-side NIR infrared double-layer bottoming line as in claim 1, characterized in that: the first wheat wheel conveying assembly comprises a first transmission rod, a fourth driving mechanism and a first wheat wheel unit; the first transmission rods are arranged on the conveying frame in a back-and-forth rotating mode and positioned beside the output end side of the first conveying device on the front side, and the first transmission rods are arranged transversely at intervals; the fourth driving mechanism is arranged on the conveying frame and drives the first transmission rod to rotate back and forth; the first wheat wheel unit is arranged on the first transmission rod and rotates back and forth along with the first transmission rod.
6. The same-side NIR infrared double-layer bottoming line as in claim 5, characterized in that: the second wheat wheel conveying assembly comprises a second transmission rod and a second wheat wheel unit; the second transmission rods are arranged on the conveying frame in a reciprocating rotation mode and positioned beside the input end side of the first conveying device on the rear side, the second transmission rods are longitudinally arranged at intervals, and the second transmission rods are driven by the fourth driving mechanism to rotate back and forth; the second wheel unit is arranged on the second transmission rod and rotates back and forth along with the second transmission rod.
7. The same-side NIR double-layer bottoming production line as claimed in claim 1, wherein: the conveying frame is further provided with a material baffle plate, and the material baffle plate is located between the first wheat wheel conveying device and the second wheat wheel conveying device.
8. The same-side NIR infrared double-layer bottoming line as in claim 1, characterized in that: the double-layer infrared heating and drying device comprises an infrared heating and drying rack, a third conveying device, a fourth conveying device, a material stirring device and an infrared heating and drying unit; the infrared heating drying rack is internally provided with an infrared heating drying cavity, the third conveying device and the fourth conveying device are arranged on the infrared heating drying rack side by side and are positioned in the infrared heating drying cavity, the third conveying device comprises a second conveying roller and a fifth driving mechanism, the second conveying roller can be arranged on the infrared heating drying rack in a reciprocating rotation mode, and the second conveying rollers are arranged at intervals; the fifth driving mechanism is arranged on the infrared heating drying rack and drives the second conveying roller to rotate back and forth; the fourth conveying device comprises a third conveying roller and a sixth driving mechanism, the third conveying roller can be arranged on the infrared heating drying rack in a reciprocating rotation mode, and the third conveying rollers are arranged at intervals; the sixth driving mechanism is arranged on the infrared heating drying rack and drives the third conveying roller to rotate back and forth; the material stirring device is arranged on the infrared heating drying rack and positioned in the infrared heating drying cavity, and two ends of the material stirring device are respectively connected with the output end of the third conveying device and the input end of the fourth conveying device; the infrared heating and drying unit is arranged in the infrared heating and drying cavity and is positioned right above the third conveying device and the fourth conveying device, and the infrared heating and drying unit is arranged in an upper layer and a lower layer.
9. The same-side NIR infrared double-layer bottoming line as in claim 8, characterized in that: the material stirring device comprises a material stirring frame, a conveyor belt, a seventh driving mechanism and a material stirring rod, wherein the material stirring frame is arranged on the infrared heating drying frame and is positioned beside the output end of the third conveying device and the side of the input end of the fourth conveying device; the conveying belt can be arranged on the material shifting frame in a back-and-forth rotating manner; the seventh driving mechanism is arranged on the material shifting frame and drives the conveying belt to rotate back and forth; the material stirring rod is arranged on the conveying belt and moves back and forth between the output end of the third conveying device and the input end of the fourth conveying device along with the conveying belt.
CN202222982977.0U 2022-11-09 2022-11-09 Homonymy NIR infrared double-layer bottom pasting production line Active CN218869565U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202222982977.0U CN218869565U (en) 2022-11-09 2022-11-09 Homonymy NIR infrared double-layer bottom pasting production line

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202222982977.0U CN218869565U (en) 2022-11-09 2022-11-09 Homonymy NIR infrared double-layer bottom pasting production line

Publications (1)

Publication Number Publication Date
CN218869565U true CN218869565U (en) 2023-04-18

Family

ID=85951659

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202222982977.0U Active CN218869565U (en) 2022-11-09 2022-11-09 Homonymy NIR infrared double-layer bottom pasting production line

Country Status (1)

Country Link
CN (1) CN218869565U (en)

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